GENSCAN 1.0 Date run: 6-Nov-116 Time: 16:21:44 Sequence gi568815591r:100703464_100927030 : 223567 bp : 52.55% C+G : Isochore 3 (51 - 57 C+G%) Parameter matrix: HumanIso.smat Predicted genes/exons: Gn.Ex Type S .Begin ...End .Len Fr Ph I/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.01 Sngl + 3368 3790 423 1 0 76 32 742 0.467 64.04 1.02 PlyA + 4000 4005 6 1.05 2.00 Prom + 16231 16270 40 -2.51 2.01 Init + 17246 17463 218 1 2 71 58 161 0.692 9.83 2.02 Intr + 18189 18240 52 0 1 65 93 53 0.741 2.90 2.03 Intr + 18499 18585 87 0 0 88 105 25 0.966 4.86 2.04 Intr + 19201 19380 180 0 0 88 109 220 0.999 24.68 2.05 Term + 19515 19670 156 2 0 97 47 148 0.999 9.85 2.06 PlyA + 22758 22763 6 1.05 3.00 Prom + 24241 24280 40 -4.01 3.01 Init + 30706 30758 53 0 2 58 115 107 0.977 8.98 3.02 Intr + 32257 32309 53 1 2 15 74 65 0.868 -3.16 3.03 Intr + 33020 33166 147 0 0 95 78 174 0.981 17.82 3.04 Intr + 33346 33617 272 2 2 96 90 114 0.999 10.20 3.05 Intr + 33799 33886 88 0 1 100 101 79 0.999 10.44 3.06 Intr + 34998 35150 153 1 0 90 67 123 0.905 10.96 3.07 Intr + 41975 42121 147 0 0 62 70 45 0.470 0.82 3.08 Intr + 43075 43206 132 2 0 109 21 117 0.658 8.22 3.09 Intr + 44087 44178 92 0 2 114 92 88 0.990 12.01 3.10 Intr + 44674 44752 79 0 1 112 64 66 0.993 6.22 3.11 Intr + 44861 45007 147 0 0 73 94 107 0.990 10.52 3.12 Intr + 47249 47433 185 0 2 96 94 53 0.468 6.73 3.13 Intr + 47719 47803 85 0 1 103 110 39 0.996 7.49 3.14 Intr + 48249 49766 1518 1 0 98 80 1838 0.741 174.41 3.15 Intr + 51763 51947 185 2 2 62 99 103 0.669 8.83 3.16 Intr + 54739 54880 142 0 1 97 93 106 0.999 12.44 3.17 Intr + 55068 55187 120 1 0 83 96 118 0.772 13.07 3.18 Intr + 56258 56382 125 0 2 100 93 159 0.993 18.41 3.19 Intr + 56928 57073 146 2 2 117 110 82 0.999 12.89 3.20 Intr + 58752 58895 144 0 0 110 38 244 0.997 21.51 3.21 Intr + 60564 60733 170 0 2 102 78 181 0.999 18.61 3.22 Intr + 61889 62091 203 0 2 78 105 140 0.915 14.23 3.23 Intr + 63062 63203 142 1 1 114 105 91 0.999 13.84 3.24 Intr + 63547 63794 248 2 2 118 64 273 0.862 25.61 3.25 Intr + 64368 64548 181 2 1 125 89 193 0.998 23.06 3.26 Intr + 65147 65258 112 0 1 89 80 126 0.999 11.84 3.27 Intr + 66417 66511 95 0 2 90 90 37 0.994 4.21 3.28 Intr + 68381 68557 177 0 0 154 78 127 0.999 18.71 3.29 Intr + 69822 70030 209 1 2 93 97 114 0.999 12.12 3.30 Intr + 70258 70402 145 0 1 94 91 165 0.999 17.77 3.31 Intr + 71865 72112 248 1 2 101 49 288 0.713 23.91 3.32 Intr + 72206 72370 165 1 0 112 100 204 0.997 24.67 3.33 Intr + 72977 73101 125 1 2 77 67 192 0.952 15.89 3.34 Intr + 75983 76287 305 2 2 89 78 277 0.964 23.58 3.35 Intr + 81160 81371 212 2 2 138 76 134 0.999 16.36 3.36 Intr + 82534 82678 145 0 1 105 70 83 0.832 8.57 3.37 Intr + 84426 84673 248 1 2 80 83 312 0.972 27.61 3.38 Intr + 85755 85884 130 2 1 126 95 217 0.945 26.97 3.39 Intr + 87479 87650 172 0 1 99 55 308 0.999 28.12 3.40 Intr + 88503 88685 183 0 0 129 70 156 0.999 17.32 3.41 Intr + 88942 89081 140 1 2 80 77 138 0.738 12.52 3.42 Intr + 90432 90628 197 1 2 49 -35 163 0.257 -0.25 3.43 Intr + 90657 90795 139 2 1 101 66 32 0.657 2.84 3.44 Intr + 91733 91873 141 0 0 135 94 115 0.998 17.63 3.45 Intr + 93900 94002 103 1 1 81 105 110 0.878 11.73 3.46 Term + 97705 97732 28 1 1 91 41 1 0.080 -6.47 3.47 PlyA + 98147 98152 6 1.05 4.18 PlyA - 99138 99133 6 1.05 4.17 Term - 100127 99998 130 1 1 106 43 75 0.602 2.76 4.16 Intr - 101858 101703 156 1 0 115 54 191 0.802 18.04 4.15 Intr - 102231 102038 194 0 2 111 76 305 0.999 30.41 4.14 Intr - 103106 102957 150 2 0 134 105 162 0.997 23.37 4.13 Intr - 104117 103902 216 2 0 102 55 377 0.556 35.03 4.12 Intr - 109531 109284 248 2 2 84 88 432 0.739 40.51 4.11 Intr - 109745 109632 114 0 0 83 94 245 0.999 25.52 4.10 Intr - 110253 110189 65 2 2 89 64 87 0.860 5.25 4.09 Intr - 110558 110456 103 0 1 90 110 153 0.960 17.43 4.08 Intr - 113894 113729 166 2 1 100 89 258 0.916 27.15 4.07 Intr - 115181 115057 125 0 2 68 116 97 0.619 11.31 4.06 Intr - 116426 116094 333 0 0 103 76 333 0.981 29.70 4.05 Intr - 116833 116678 156 2 0 88 100 123 0.991 13.99 4.04 Intr - 119204 118808 397 2 1 76 78 499 0.970 42.42 4.03 Intr - 120633 120181 453 0 0 120 77 462 0.418 42.34 4.02 Intr - 120810 120740 71 1 2 114 94 46 0.943 7.19 4.01 Init - 123567 123516 52 0 1 115 113 112 0.998 15.68 4.00 Prom - 129316 129277 40 -3.21 5.00 Prom + 130739 130778 40 -4.61 5.01 Init + 130831 130847 17 0 2 94 105 25 0.677 4.41 5.02 Term + 134012 134198 187 2 1 57 32 111 0.543 -0.32 5.03 PlyA + 135319 135324 6 1.05 6.00 Prom + 135558 135597 40 -4.91 6.01 Init + 150735 150915 181 2 1 98 97 158 0.993 15.17 6.02 Intr + 151157 151345 189 0 0 111 37 148 0.999 12.08 6.03 Intr + 152243 152374 132 0 0 94 42 169 0.999 14.02 6.04 Intr + 153405 153713 309 1 0 99 89 340 0.809 32.03 6.05 Intr + 155372 155479 108 0 0 -1 94 165 0.796 8.96 6.06 Intr + 155587 155698 112 2 1 129 39 124 0.999 11.54 6.07 Intr + 156422 156579 158 2 2 115 60 226 0.999 22.67 6.08 Intr + 156687 156769 83 1 2 93 99 -2 0.990 1.25 6.09 Intr + 157675 157799 125 0 2 30 97 183 0.984 13.29 6.10 Intr + 157929 158121 193 0 1 103 80 84 0.943 9.12 6.11 Intr + 158274 158448 175 2 1 72 97 176 0.995 16.93 6.12 Intr + 159218 159364 147 0 0 101 97 151 0.999 18.02 6.13 Intr + 162256 163112 857 2 2 131 -5 804 0.039 67.15 6.14 Intr + 164032 164143 112 0 1 72 110 56 0.045 6.66 6.15 Intr + 164658 164770 113 1 2 59 62 117 0.869 6.80 6.16 Intr + 165032 165199 168 1 0 105 53 104 0.905 9.26 6.17 Intr + 165279 165403 125 2 2 108 99 105 0.999 13.49 6.18 Intr + 166798 167000 203 1 2 36 85 219 0.980 15.85 6.19 Intr + 167111 167280 170 0 2 126 89 162 0.994 20.28 6.20 Intr + 168080 168258 179 1 2 98 71 272 0.999 25.73 6.21 Intr + 169161 169281 121 0 1 125 55 46 0.938 6.00 6.22 Intr + 169709 169822 114 1 0 66 -55 166 0.005 1.25 6.23 Intr + 171809 171865 57 1 0 47 81 93 0.687 4.07 6.24 Intr + 172110 172249 140 2 2 86 99 263 0.987 26.97 6.25 Intr + 177822 177950 129 0 0 70 85 212 0.999 19.41 6.26 Intr + 178196 178342 147 2 0 99 110 60 0.992 9.16 6.27 Intr + 178590 178778 189 0 0 74 89 358 0.952 33.72 6.28 Intr + 180607 180776 170 1 2 118 69 200 0.989 21.21 6.29 Intr + 180905 181089 185 0 2 95 57 319 0.999 29.53 6.30 Intr + 181277 181375 99 1 0 74 100 162 0.999 16.81 6.31 Intr + 181460 181577 118 1 1 60 70 248 0.999 20.74 6.32 Intr + 181750 181907 158 2 2 72 75 304 0.974 27.74 6.33 Intr + 182238 182299 62 2 2 108 105 35 0.999 5.22 6.34 Intr + 182400 182478 79 0 1 98 67 99 0.993 8.85 6.35 Intr + 182671 182745 75 0 0 70 98 12 0.584 0.61 6.36 Intr + 182784 182972 189 2 0 68 73 368 0.994 33.60 6.37 Intr + 183332 183505 174 1 0 87 45 337 0.997 29.95 6.38 Intr + 183584 183737 154 1 1 103 105 282 0.999 31.56 6.39 Intr + 183857 184050 194 0 2 73 70 225 0.994 18.93 6.40 Intr + 184240 184396 157 0 1 124 52 163 0.974 16.40 6.41 Intr + 184555 184680 126 2 0 102 107 87 0.527 13.16 6.42 Intr + 184815 184920 106 1 1 79 94 68 0.825 6.27 6.43 Term + 185011 185086 76 1 1 121 52 144 0.999 11.71 6.44 PlyA + 185181 185186 6 1.05 7.06 PlyA - 185283 185278 6 1.05 7.05 Term - 186081 185380 702 0 0 21 55 735 0.944 57.46 7.04 Intr - 186872 186811 62 0 2 74 10 127 0.993 2.44 7.03 Intr - 187875 187706 170 2 2 122 84 180 0.986 21.11 7.02 Intr - 189355 188871 485 1 2 112 44 657 0.886 56.11 7.01 Init - 190769 189702 1068 2 0 101 93 1357 0.994 130.02 7.00 Prom - 214724 214685 40 -1.21 8.00 Prom + 214985 215024 40 0.19 8.01 Init + 217263 217314 52 2 1 65 81 57 0.205 3.97 8.02 Term + 220349 220368 20 0 2 120 52 10 0.104 -0.64 8.03 PlyA + 220736 220741 6 1.05 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Term + 162256 163142 887 2 2 131 44 830 0.937 76.03 S.002 Init + 164035 164143 109 0 1 70 110 49 0.915 5.88 S.003 Term + 169709 169840 132 1 0 66 47 202 0.993 12.30 S.004 Init + 171262 171345 84 0 0 42 93 58 0.816 0.51 S.005 Intr + 210514 210604 91 2 1 37 42 96 0.809 -0.55 S.006 Term + 215499 215625 127 0 1 97 42 117 0.890 6.06 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815591r:100703464_100927030|GENSCAN_predicted_peptide_1|140_aa MAENREPRGAVEAELDPVEYTLRKRLPSRLPRRPNDIYVNMKTDFKAQLARCQKLLDGGA RGQNACSEIYIHGLGLAINRAINIALQLQAGSFGSLQVAANTSTVELVDELEPETDTREP LTRIRNNSAIHIRVFRVTPK >gi568815591r:100703464_100927030|GENSCAN_predicted_CDS_1|423_bp atggcagaaaaccgagagccccgcggtgctgtggaggctgaactggatccagtggaatac acccttaggaaaaggcttcccagccgcctgccccggagacccaatgacatttatgtcaac atgaagacggactttaaggcccagctggcccgctgccagaagctgctggacggaggggcc cggggtcagaacgcgtgctctgagatctacattcacggcttgggcctggccatcaaccgc gccatcaacatcgcgctgcagctgcaggcgggcagcttcgggtccttgcaggtggctgcc aatacctccaccgtggagcttgttgatgagctggagccagagaccgacacacgggagcca ctgactcggatccgcaacaactcagccatccacatccgagtcttcagggtcacacccaag taa >gi568815591r:100703464_100927030|GENSCAN_predicted_peptide_2|230_aa MQITAPTPGQSRRVPGPPRPLAALRRTALSSRSRTGATAPALLRHRAPWTAALSSRPVGL ALHRRASRDEGPRRVLERYLLEAKEAENITTGCAEHCSLNENITVPDTKVNFYAWKRMEV GQQAVEVWQGLALLSEAVLRGQALLVNSSQPWEPLQLHVDKAVSGLRSLTTLLRALGAQK EAISPPDAASAAPLRTITADTFRKLFRVYSNFLRGKLKLYTGEACRTGDR >gi568815591r:100703464_100927030|GENSCAN_predicted_CDS_2|693_bp atgcagataacagccccgacccccggccagagccgcagagtccctgggccaccccggccg ctcgctgcgctgcgccgcaccgcgctgtcctcccggagccggaccggggccaccgcgccc gctctgctccgacaccgcgccccctggacagccgccctctcctccaggcccgtggggctg gccctgcaccgccgagcttcccgggatgagggcccccgccgagtcctggagaggtacctc ttggaggccaaggaggccgagaatatcacgacgggctgtgctgaacactgcagcttgaat gagaatatcactgtcccagacaccaaagttaatttctatgcctggaagaggatggaggtc gggcagcaggccgtagaagtctggcagggcctggccctgctgtcggaagctgtcctgcgg ggccaggccctgttggtcaactcttcccagccgtgggagcccctgcagctgcatgtggat aaagccgtcagtggccttcgcagcctcaccactctgcttcgggctctgggagcccagaag gaagccatctcccctccagatgcggcctcagctgctccactccgaacaatcactgctgac actttccgcaaactcttccgagtctactccaatttcctccggggaaagctgaagctgtac acaggggaggcctgcaggacaggggacagatga >gi568815591r:100703464_100927030|GENSCAN_predicted_peptide_3|2791_aa MVPPVWTLLLLVGAALFRKEKPPDQKLVVRSSRDNYVLTQCDFEDDAKPLCDWSQVSADD EDWVRASGPSPTGSTGAPGGYPNGEGSYLHMESNSFHRGGVARLLSPDLWEQGPLCVHFA HHMFGLSWGAQLRLLLLSGEEGRRPDVLWKHWNTQRPSWMLTTVTVPAGFTLPTRLMFEG TRGSTAYLDIALDALSIRRGSCNRVCMMQTCSFDIPNDLCDWTWIPTASGAKWTQKKGSS GKPGVGPDGDFSSPGIASPSEVHADWLSELGAEVVLGERGFASCSSVSEPLYLSPVCVNR LCPAGGCYMLLDPKNARPGQKAVLLSPVSLSSGCLSFSFHYILRGQSPGSIRKHTLFSGQ PGPNWQAVSVNYTAVGRIQFAVVGVFGKTPEPAVAVDATSIAPCGEGFPQCDFEDNAHPF CDWVQTSGDGGHWALGHKNGPVHGMGPAGGFPNAGDICVEFAYHMYGLGEGTMLELLLGS PAGSPPIPLWKRVGSQRPYWQNTSVTVPSGHQQPMQLIFKGIQGSNTASVVAMGFILINP GTCPVKVLPELPPVSPVSSTGPSETTGLTENPTISTKKPTVSIEKPSVTTEKPTVPKEKP TIPTEKPTISTEKPTIPSEKPNMPSEKPTIPSEKPTILTEKPTIPSEKPTIPSEKPTIST EKPTVPTEEPTTPTEETTTSMEEPVIPTEKPSIPTEKPSIPTEKPTISMEETIISTEKPT ISPEKPTIPTEKPTIPTEKSTISPEKPTTPTEKPTIPTEKPTISPEKPTTPTEKPTISPE KLTIPTEKPTIPTEKPTIPTEKPTISTEEPTTPTEETTISTEKPSIPMEKPTLPTEETTT SVEETTISTEKLTIPMEKPTISTEKPTIPTEKPTISPEKLTIPTEKLTIPTEKPTIPIEE TTISTEKLTIPTEKPTISPEKPTISTEKPTIPTEKPTIPTEETTISTEKLTIPTEKPTIS PEKLTIPTEKPTISTEKPTIPTEKLTIPTEKPTIPTEKPTIPTEKLTALRPPHPSPTATG LAALVMSPHAPSTPMTSVILGTTTTSRSSTERCPPNARYESCACPASCKSPRPSCGPLCR EGCVCNPGFLFSDNHCIQASSCNCFYNNDYYEPGAEWFSPNCTEHCRCWPGSRVECQISQ CGTHTVCQLKNGQYGCHPYAGTATCLVYGDPHYVTFDGRHFGFMGKCTYILAQPCGNSTD PFFRVTAKNEEQGQEGVSCLSKVYVTLPESTVTLLKGRRTLVGGQQVTLPAIPSKGVFLG ASGRFVELQTEFGLRVRWDGDQQLYVTVSSTYSGKLCGLCGNYDGNSDNDHLKLDGSPAG DKEELGNSWQTDQDEDQETCLLHVKAASFFDSCMLDMCGFQGLQHLLCTHMSTMTTTCQD AGHAVKPWREPHFCPMACPPNSKYSLCAKPCPDTCHSGFSGMFCSDRCVEACECNPGFVL SGLECIPRSQCGCLHPAGSYFKVGERWYKPGCKELCVCESNNRIRCQPWRCRAQEFCGQQ DGIYGCHAQGAATCTASGDPHYLTFDGALHHFMGTCTYVLTRPCWSRSQDSYFVVSATNE NRGGILEVSYIKAVHVTVFDLSISLLRGCKVMLNGHRVALPVWLAQGRVTIRLSSNLVLL YTNFGLQVRYDGSHLVEVTVPSSYGGQLCGLCGNYNNNSLDDNLRPDRKLAGDSMQLGAA WKLPESSEPGCFLVGGKPSSCQENSMADAWNKNCAILINPQGPFSQCHQVVPPQSSFASC VHGQCGTKGDTTALCRSLQAYASLCAQAGQAPAWRNRTFCPMRCPPGSSYSPCSSPCPDT CSSINNPRDCPKALPCAESCECQKGHILSGTSCVPLGQCGCTDPAGSYHPVGERWYTENT CTRLCTCSVHNNITCFQSTCKPNQICWALDGLLHCRASGVGVCQLPGESHYVSFDGSNHS IPDACTLVLVKVCHPAMALPFFKISAKHEKEEGGTEAFRLHEVYIDIYDAQVTLQKGHRV LINSKQVTLPAISQIPGVSVKSSSIYSIVNIKIGVQVKFDGNHLLEIEIPTTYYGKVCGM CGNFNDEEEDELMMPSDEVANSDSEFVNSWKDKDIDPSCQSLLVDEQQIPAEQQENPSGN CRAADLRRAREKCEAALRAPVWAQCASRIDLTPFLVDCANTLCEFGGLYQALCQALQAFG ATCQSQGLKPPLWRNSSFCPLECPAYSSYTNCLPSCSPSCWDLDGRCEGAKVPSACAEGC ICQPGYVLSEDKCVPRSQCGCKDAHGGSIPLGKSWVSSGCTEKCVCTGGAIQCGDFRCPS GSHCQLTSDNSNSNCVSDKSEQCSVYGDPRYLTFDGFSYRLQGRMTYVLIKTVDVLPEGV EPLLVEGRNKMDPPRSSIFLQEVITTVYGYKVQLQAGLELVVNNQKMAVPYRPNEHLRVT LWGQRLYLVTDFELVVSFGGRKNAVISLPSMYEGLVSGLCGNYDKNRKNDMMLPSGALTQ NLNTFGNSWEVKTEDALLRFPRAIPAEEEGQGAELGLRTGLQVSECSPEQLASNSTQACR VLADPQGPFAACHQTVAPEPFQEHCVLDLCSAQDPREQEELRCQVLSGYAILCQEAGAAL AGWRDRTLCDPGDCEGPCVEGCASIPGYAYSGTQSLPWLTVAAPAMASTTRSELAAGGPG EQRRQGEPDQGWNWNLGSSFLTEDCSQRCTCASSRILLCEPFSCRAGEVCTLGNHTQGCF PESPCLQNPCQNDGQCREQGATFTCECEVGYGGGLCMEPRDAPPPRKPEASNLVGVLLGL LVPVVVVLLAVTRECIYRTRRKSYSSLGHLI >gi568815591r:100703464_100927030|GENSCAN_predicted_CDS_3|8376_bp atggttcctccagtctggactctgctgcttctggtgggggctgcccttttcaggaaagag aagcctccggaccagaagctggttgttcgcagctctagggacaactatgtcctcacccag tgtgattttgaggatgacgccaaacccctctgtgactggtcccaagtgtccgcagacgat gaagactgggttcgagccagtgggccctctcccaccggctccaccggggcccccgggggg taccctaacggagagggcagctatctgcatatggaatcgaacagcttccaccgtggggga gtggcccgcctgctcagccccgacctatgggagcaaggccccctctgtgtgcactttgcc caccacatgttcgggctgtcttggggcgcccagctcaggctgctgctgctctcgggtgaa gagggccgccgccccgatgtgctctggaaacactggaacacccagagaccctcctggatg ctcaccaccgtcactgtgcccgcagggttcaccctgcccacccggctgatgtttgaggga acacggggtagcactgcctacctggacatcgccctggatgccctctctatccgccggggc tcctgtaatcgcgtctgtatgatgcaaacatgcagctttgacattccaaatgacctctgt gactggacctggatcccaactgcctccggggccaagtggactcagaagaaagggtcatca ggaaagccaggcgtggggcctgatggcgacttctctagccctggtattgcgtcacctagc gaggtccacgctgattggctgtctgagctgggggccgaggtggtgttgggtgagaggggg tttgcctcttgctcctctgtgtcagagccgctgtatctctcgccagtttgcgtgaatagg ttatgtccagcgggtggctgctacatgctcctggaccccaagaatgcaagacctgggcag aaagctgtcctcctgagccccgtgagcctgtcctctggctgtctgagcttttccttccac tacatcctccggggccagtctcctgggagtatccggaaacacactctcttctcaggacaa cctgggcccaactggcaggctgtttctgtcaattacacagccgtgggacggatacagttt gccgtggtaggcgtttttggaaagaccccagagccagctgtggcagttgatgcaaccagc attgctccttgtggggagggttttcctcagtgtgactttgaagacaacgcccatcccttc tgtgactgggtccagacttccggggatggtggacactgggccctcggacataaaaatgga cccgtccatggcatgggccctgcgggaggtttccctaatgcaggtgacatctgcgtggag ttcgcataccacatgtatggccttggggagggtactatgctcgaactcctcctgggaagt cctgcggggagtcccccgattcctctctggaaacgcgtggggtctcagcgcccttactgg cagaacacctccgtcaccgtcccctcaggacaccaacagcccatgcagcttattttcaag ggcatccagggaagcaacacggcctctgtggttgctatgggtttcatcttgatcaatcct gggacttgtccagtaaaagtgctaccagagcttcctcccgtatctccagtttcttccact ggcccttctgaaaccactggcctcacagaaaaccctacaatctccaccaagaaacctaca gtttccatagaaaaacccagtgtcaccacagaaaagcccacagtccccaaagaaaagccc accattcccacagaaaaacccaccatctccacagaaaaacccaccattccttcagaaaaa cccaacatgccctcagaaaaacccaccattccctcagaaaaacccaccatcctcacagaa aaacccaccattccctcagaaaaacccaccattccctcagaaaaacccaccatttccaca gaaaaacccaccgtccccacagaagagcccaccacccccactgaggagaccaccacctcc atggaagagcctgtcatccctacagaaaaacccagcatccctacagaaaaacccagcatc cccacggaaaaacccaccatctccatggaagagactatcatctccacagaaaaacccacc atctccccagaaaaacccaccatccccacagaaaaacccaccatccccacagaaaaatcc accatctccccagaaaaacccaccacccccacagaaaaacccaccatccccacagaaaaa cccaccatctccccagaaaaacccaccacccccacagaaaaacccaccatctccccagaa aaactcaccatccccacagaaaaacccaccatccccacagaaaaacccaccattcccaca gaaaaacccaccatctccacagaagagcccaccacccccactgaggagaccaccatctcc acagaaaaacccagcatccccatggaaaaacccactctccccactgaagaaaccaccacc tctgttgaagagactaccatctctacagaaaaactcaccatccccatggaaaaacccacc atctccacagaaaaacccaccatccccacagaaaaacccaccatctccccagaaaaactc accatccccacggaaaaactcaccatccccacggaaaaacccaccatccccattgaagag actaccatctccacagaaaaactcaccatccccacagaaaaacccaccatctccccagaa aaacccaccatctccacggaaaaacccaccatccccacggaaaaacccaccatccccact gaagagactaccatctccacagaaaaactcaccatccccacagaaaaacccaccatctcc ccagaaaaactcaccatccccacagaaaaacccaccatctccacggaaaaacccaccatc cccacggaaaaacttaccatccccacggaaaaacccaccatccccacagaaaaacccacc attcccacagagaagctcacagccctgaggccaccccatcccagccccacagccactggg ctggcagccttggtgatgtctccacatgctccaagtacccctatgaccagtgtgattctg ggcactaccacaacctccagatccagtacagagcgctgccctccaaatgcccgctacgaa tcctgtgcttgtcctgcttcgtgcaagagccccaggcctagctgtgggcccctctgtcgg gagggctgtgtctgcaaccctggctttttgtttagtgacaaccactgcatccaggcctct tcctgcaattgcttctacaacaacgactactatgagcctggggcagagtggttcagcccc aactgcacagaacattgccgctgctggcccggcagtcgggtcgagtgccagatctctcag tgtgggacacacaccgtgtgccagcttaagaatggccagtatggatgccacccctacgca ggcactgccacctgcttggtctacggagaccctcattatgtcacctttgacgggaggcac tttggcttcatgggcaagtgcacttacatcttggcccagccctgtggcaactcaacagac ccattcttcagggtgacagccaagaatgaggagcagggacaggaaggcgtgtcctgcctg agcaaagtctacgtgaccctgcccgagagcaccgtcaccctgcttaagggcagacgcact ctggttgggggtcagcaagttactctcccagccataccctctaaaggcgtcttcctgggt gcaagcgggcggtttgtggagctgcagacggagttcggtttgcgggtgagatgggatggt gaccagcagctgtatgttactgtgtccagcacatactctggcaaactctgtggtttgtgt gggaactatgacggcaacagtgacaatgaccacctgaagttggacggcagcccagcagga gacaaggaggagctggggaacagctggcagacggaccaggacgaggaccaggagacatgc ctgctgcacgtgaaggccgcttccttcttcgacagctgcatgcttgatatgtgcggattc caggggctgcagcacctgctgtgcacacacatgtccaccatgaccaccacctgccaggac gcaggccacgctgtgaagccctggagggaaccccacttctgcccaatggcctgcccgccc aacagcaagtactccctgtgtgcgaagccatgccctgacacctgccattcaggattctcc ggcatgttctgctcagaccggtgcgtggaggcctgtgaatgcaatccgggcttcgtcctc agtggcctcgagtgcatacctcgctcccagtgtgggtgcctccaccctgcaggcagctac ttcaaggtaggggagcggtggtacaagccaggctgcaaagagttgtgcgtctgtgaaagc aacaacagaattcgctgccagccctggaggtgtagggcccaggagttctgtggccaacag gatggtatctatggctgccatgcccaaggtgccgccacctgcacagcctcgggtgacccc cactacctgaccttcgatggcgccttgcaccacttcatgggcacctgcacctatgtcctg acccggccttgctggtccaggtcccaagacagctattttgttgtgagcgccaccaacgag aaccgcggggggatcctggaggtctcctacatcaaagccgtccacgtgacagtctttgac ctcagcatctcactgctcagaggctgtaaggtcatgctgaatggccatcgggtggcccta cctgtgtggcttgcacaaggccgggtgaccataaggctcagcagcaacctcgtcctcctc tacacgaactttgggctccaagttcgctacgacgggagccacttggtggaagtgacagtc ccctcctcctatggcggccagctctgtgggctgtgtgggaactacaacaacaacagcttg gatgacaacctgcgccccgacagaaagcttgcaggcgattccatgcagctgggggccgcc tggaagttacctgaatcctctgaacctggctgtttccttgtgggtggcaagccctccagc tgccaggagaacagcatggcagacgcctggaacaagaactgtgcgatcttaataaaccct cagggacccttctctcaatgtcaccaggtggtgcctccccagtccagctttgccagttgc gtgcatggtcagtgtgggaccaagggcgacaccacagccctgtgccgctccctgcaggcc tacgcgtccctgtgtgcccaggctggccaggcccctgcctggcggaacagaaccttctgc cctatgaggtgcccacctggcagcagctacagcccctgcagcagcccctgcccagacacc tgcagcagcataaacaacccgagggactgccccaaagcactgccctgtgctgagagctgt gaatgtcagaaaggccacatcttgagtggaacctcctgcgtgccccttggccagtgtggc tgcactgacccagcgggctcctaccacccggtcggggagcgctggtacacagagaacacc tgcaccaggctctgcacctgctccgtccacaacaacatcacctgcttccagagcacctgc aaacccaaccagatatgctgggccctggatgggctgctccattgtcgggcctcaggtgtg ggagtgtgtcagctcccaggggagtcccactacgtgagctttgatggtagtaaccattct atcccggacgcctgcactcttgtcctggtgaaagtgtgccaccccgccatggccttgccc ttcttcaagatcagtgccaagcatgagaaggaggaaggtggaactgaggctttccgcctt catgaggtctacattgacatctacgatgcccaggtcaccctgcagaagggccaccgtgtg ctaatcaacagcaaacaggtcaccctccccgccatctcccagatccctggggtcagtgtc aagtccagcagcatctacagcattgttaacatcaagatcggggtgcaagtcaagtttgac gggaatcatctcttagagattgaaatccccacaacctactatggaaaggtctgcggcatg tgtgggaacttcaatgatgaggaagaggacgaactaatgatgcccagcgatgaagtagca aatagtgacagtgaatttgtgaacagttggaaagataaggacattgacccaagttgtcag agtctcctggtagatgagcagcagattccagcggaacagcaggagaacccgagtggaaac tgcagggcggccgacctccgcagggcgcgggaaaagtgcgaggcagcgctccgggctcct gtgtgggcccagtgcgcctcccgcatagacctcacgcccttcctggtggactgtgcaaac accctctgtgagttcggaggtctctaccaggccctctgccaggctctgcaagccttcggg gccacctgccagagccaggggctcaagcccccactctggagaaacagcagcttctgccct ctggaatgccctgcctacagcagctacaccaactgccttccctcctgctcaccctcctgc tgggacctggatggccggtgtgagggcgccaaagtcccctctgcctgcgctgagggctgc atttgtcagcccggctatgtgctgagtgaagacaagtgtgtccccagaagtcagtgtggc tgcaaggatgcccatggtggctccatccctctgggcaagagctgggtctccagcggttgc acggagaagtgtgtctgcacgggaggagccattcagtgcggggacttccgatgcccctct gggtcccactgccagctcacttccgacaacagcaacagcaattgtgtctcagacaagtct gaacaatgctcagtctatggcgacccccgttacctcacatttgacggcttcagctaccgc ttgcaaggccgcatgacctatgttctgatcaagactgtggacgtactgcctgagggggtg gagcccctcctcgtggaaggacgcaacaagatggatccgcccaggagctccatcttcttg caggaagtgattaccaccgtctacggctataaagtgcagctccaagctggtctggagctt gtggtcaacaaccagaagatggccgtcccctacaggccaaatgaacacctgcgggtcacc ctgtggggccaacggctctacctggtcaccgactttgagctggtcgtcagctttggtgga aggaaaaatgcagtgatctccctacccagcatgtacgaggggcttgtgagtggcctgtgc ggaaactacgacaagaaccgcaagaatgacatgatgctgcccagtggcgccctgacccag aacctcaacacctttggcaacagctgggaggtgaagaccgaggacgcactcctgcgcttc cccagggctataccagcggaggaggagggacaaggggcggagctgggcctccgcacgggc ctccaagtgtccgaatgtagcccggagcagctggcgagcaacagcacccaggcctgtagg gtgctggcagacccccagggcccctttgctgcctgtcaccagacggtggccccagagccc ttccaagagcactgcgtgctggatctgtgctctgctcaggacccaagagagcaagaggag ctgcgttgccaggtcctcagtgggtacgccatcctctgccaggaggcgggcgctgccctg gctggctggcgggaccgcaccctctgcgaccccggggactgcgagggcccctgcgtggaa ggctgcgccagcatcccaggctatgcctacagtggcacccagagcctcccctggctgact gtggctgcaccagcaatggcatctactaccaggtctgagctggcagcaggaggccctggg gagcagaggcgccaaggagagccagaccagggatggaactggaacctgggcagcagcttt ctgactgaggactgctctcagcggtgcacctgtgccagctcacggatcctgctgtgtgag cccttcagctgcagagcgggggaggtctgcaccctggggaaccacacccaaggctgcttt ccagaaagcccgtgtctgcagaacccctgtcagaatgacgggcagtgtcgggagcaggga gccaccttcacctgcgagtgtgaagttggttacgggggaggcctgtgtatggagcctcga gatgcgccacctcccagaaagccagaagcatctaacctggtgggcgtcctactgggactg ctggtgcctgtggtggtcgtactactggccgtgaccagagagtgcatttacagaacgagg aggaagagctacagctctctaggacaccttatctag >gi568815591r:100703464_100927030|GENSCAN_predicted_peptide_4|1042_aa MELRVLLCWASLAAALEETLLNTKLETADLKWVTFPQVDGQMTAAPAVSSEPFSEAPSSQ YQQPPFLSPSHFIGFTPCSPLPGGSPAPLLTSFSAQWEELSGLDEEQHSVRTYEVCDVQR APGQAHWLRTGWVPRRGAVHVYATLRFTMLECLSLPRAGRSCKETFTVFYYESDADTATA LTPAWMENPYIKVDTVAAEHLTRKRPGAEATGKVNVKTLRLGPLSKAGFYLAFQDQGACM ALLSLHLFYKKCAQLTVNLTRFPETVPRELVVPVAGSCVVDAVPAPGPSPSLYCREDGQW AEQPVTGCSCAPGFEAAEGNTKCRACAQGTFKPLSGEGSCQPCPANSHSNTIGSAVCQCR VGYFRARTDPRGAPCTTPPSAPRSVVSRLNGSSLHLEWSAPLESGGREDLTYALRCRECR PGGSCAPCGGDLTFDPGPRDLVEPWVVVRGLRPDFTYTFEVTALNGVSSLATGPVPFEPV NVTTDREVPPAVSDIRVTRSSPSSLSLAWAVPRAPSGAVLDYEVKYHEKGAEGPSSVRFL KTSENRAELRGLKRGASYLVQVRARSEAGYGPFGQEHHSQTQLDESEGWREQLALIAGTA VVGVVLVLVVIVVAVLCLRKQSNGREAEYSDKHGQYLIGHGTKVYIDPFTYEDPNEAVRE FAKEIDVSYVKIEEVIGAGEFGEVCRGRLKAPGKKESCVAIKTLKGGYTERQRREFLSEA SIMGQFEHPNIIRLEGVVTNSMPVMILTEFMENGALDSFLRLNDGQFTVIQLVGMLRGIA SGMRYLAEMSYVHRDLAARNILVNSNLVCKVSDFGLSRFLEENSSDPTYTSSLGGKIPIR WTAPEAIAFRKFTSASDAWSYGIVMWEVMSFGERPYWDMSNQDVINAIEQDYRLPPPPDC PTSLHQLMLDCWQKDRNARPRFPQVVSALDKMIRNPASLKIVARENGGASHPLLDQRQPH YSAFGSVGEWLRAIKMGRYEESFAAAGFGSFELVSQISAEDLLRIGVTLAGHQKKILASV QHMKSQAKPGTPGGTGGPAPQY >gi568815591r:100703464_100927030|GENSCAN_predicted_CDS_4|3129_bp atggagctccgggtgctgctctgctgggcttcgttggccgcagctttggaagagaccctg ctgaacacaaaattggaaactgctgatctgaagtgggtgacattccctcaggtggacggg cagatgacagcagccccagcagtgtcgtctgagcccttctcagaggcgccctcctcgcag taccagcagcccccctttctcagtccctctcactttataggattcaccccatgcagccct ctccctggcggctccccagcccccttgctgacctccttctctgcacagtgggaggaactg agcggcctggatgaggaacagcacagcgtgcgcacctacgaagtgtgtgacgtgcagcgt gccccgggccaggcccactggcttcgcacaggttgggtcccacggcggggcgccgtccac gtgtacgccacgctgcgcttcaccatgctcgagtgcctgtccctgcctcgggctgggcgc tcctgcaaggagaccttcaccgtcttctactatgagagcgatgcggacacggccacggcc ctcacgccagcctggatggagaacccctacatcaaggtggacacggtggccgcggagcat ctcacccggaagcgccctggggccgaggccaccgggaaggtgaatgtcaagacgctgcgt ctgggaccgctcagcaaggctggcttctacctggccttccaggaccagggtgcctgcatg gccctgctatccctgcacctcttctacaaaaagtgcgcccagctgactgtgaacctgact cgattcccggagactgtgcctcgggagctggttgtgcccgtggccggtagctgcgtggtg gatgccgtccccgcccctggccccagccccagcctctactgccgtgaggatggccagtgg gccgaacagccggtcacgggctgcagctgtgctccggggttcgaggcagctgaggggaac accaagtgccgagcctgtgcccagggcaccttcaagcccctgtcaggagaagggtcctgc cagccatgcccagccaatagccactctaacaccattggatcagccgtctgccagtgccgc gtcgggtacttccgggcacgcacagacccccggggtgcaccctgcaccacccctccttcg gctccgcggagcgtggtttcccgcctgaacggctcctccctgcacctggaatggagtgcc cccctggagtctggtggccgagaggacctcacctacgccctccgctgccgggagtgccga cccggaggctcctgtgcgccctgcgggggagacctgacttttgaccccggcccccgggac ctggtggagccctgggtggtggttcgagggctacgtcctgacttcacctatacctttgag gtcactgcattgaacggggtatcctccttagccacggggcccgtcccatttgagcctgtc aatgtcaccactgaccgagaggtacctcctgcagtgtctgacatccgggtgacgcggtcc tcacccagcagcttgagcctggcctgggctgttccccgggcacccagtggggctgtgctg gactacgaggtcaaataccatgagaagggcgccgagggtcccagcagcgtgcggttcctg aagacgtcagaaaaccgggcagagctgcgggggctgaagcggggagccagctacctggtg caggtacgggcgcgctctgaggccggctacgggcccttcggccaggaacatcacagccag acccaactggatgagagcgagggctggcgggagcagctggccctgattgcgggcacggca gtcgtgggtgtggtcctggtcctggtggtcattgtggtcgcagttctctgcctcaggaag cagagcaatgggagagaagcagaatattcggacaaacacggacagtatctcatcggacat ggtactaaggtctacatcgaccccttcacttatgaagaccctaatgaggctgtgagggaa tttgcaaaagagatcgatgtctcctacgtcaagattgaagaggtgattggtgcaggtgag tttggcgaggtgtgccgggggcggctcaaggccccagggaagaaggagagctgtgtggca atcaagaccctgaagggtggctacacggagcggcagcggcgtgagtttctgagcgaggcc tccatcatgggccagttcgagcaccccaatatcatccgcctggagggcgtggtcaccaac agcatgcccgtcatgattctcacagagttcatggagaacggcgccctggactccttcctg cggctaaacgacggacagttcacagtcatccagctcgtgggcatgctgcggggcatcgcc tcgggcatgcggtaccttgccgagatgagctacgtccaccgagacctggctgctcgcaac atcctagtcaacagcaacctcgtctgcaaagtgtctgactttggcctttcccgattcctg gaggagaactcttccgatcccacctacacgagctccctgggaggaaagattcccatccga tggactgccccggaggccattgccttccggaagttcacttccgccagtgatgcctggagt tacgggattgtgatgtgggaggtgatgtcatttggggagaggccgtactgggacatgagc aatcaggacgtgatcaatgccattgaacaggactaccggctgcccccgcccccagactgt cccacctccctccaccagctcatgctggactgttggcagaaagaccggaatgcccggccc cgcttcccccaggtggtcagcgccctggacaagatgatccggaaccccgccagcctcaaa atcgtggcccgggagaatggcggggcctcacaccctctcctggaccagcggcagcctcac tactcagcttttggctctgtgggcgagtggcttcgggccatcaaaatgggaagatacgaa gaaagtttcgcagccgctggctttggctccttcgagctggtcagccagatctctgctgag gacctgctccgaatcggagtcactctggcgggacaccagaagaaaatcttggccagtgtc cagcacatgaagtcccaggccaagccgggaaccccgggtgggacaggaggaccggccccg cagtactga >gi568815591r:100703464_100927030|GENSCAN_predicted_peptide_5|67_aa MGELESHHSRRHLSFPAVSHVGSTPQASDCWRAVGRIPEDSCSHSECLVIPGAGQQRRKL KLLFRGA >gi568815591r:100703464_100927030|GENSCAN_predicted_CDS_5|204_bp atgggtgaactggagagccatcatagtcgccgccatctttccttcccggccgtcagtcac gtgggcagcacgccccaggcctccgactgctggcgtgcagtggggcggattccggaggat tcctgcagccacagtgaatgtttggttattccaggcgcagggcagcagcgaagaaaactg aagctcctgtttcgtggagcttaa >gi568815591r:100703464_100927030|GENSCAN_predicted_peptide_6|2285_aa MASESSPLLAYRLLGEEGVALPANGAGGPGGASARKLSTFLGVVVPTVLSMFSIVVFLRI GFVVGHAGLLQALAMLLVAYFILALTVLSVCAIATNGAVQGGGAYCILQHRWTGVWPVLP AREVMISRTLGPEVGGSIGLMFYLANVCGCAVSLLGLVESVLDVFGADATGPSGLRVLPQ GYGWNLLYGSLLLGLVGGVCTLGAGLYARASFLTFLLVSGSLASVLISFVAVGPRDIRLT PRPGPNGSSLPPRFGHFTGFNSSTLKDNLGAGYAEDYTTGAVMNFASVFAVLFNGCTGIM AGANMSGELKDPSRAIPLGTIVAVAYTFFVYVLLFFLSSFTCDRTLLQEDYGFFRAISLW PPLVLIGIYATALSASMSSLIGASRILHALARDDLFGVILAPAKVVSRGGNPWAAVLYSW GLVQLVLLAGKLNTLAAVVTVFYLVAYAAVDLSCLSLEWASAPNFRPTFSLFSWHTCLLG VASCLLMMFLISPGAAGGSLLLMGLLAALLTARGGPSSWGYVSQALLFHQVRKYLLRLDV RKDHVKFWRPQLLLLVGNPRGALPLLRLANQLKKGGLYVLGHVTLGDLDSLPSDPVQPQY GAWLSLVDRAQVKAFVDLTLSPSVRQGAQHLLRISGLGGMKPNTLVLGFYDDAPPQDHFL TDPAFSEPADSTREGSSPALSTLFPPPRAPGSPRALNPQDYVATVADALKMNKNVVLARA SGALPPERLSRGSGGTSQLHHVDVWPLNLLRPRGGPGYVDVCGLFLLQMATILGMVPAWH SARLRIFLCLGPREAPGAAEGRLRALLSQLRIRAEVQEVVWGEGAGAGEPEAEEEGDFVN SGRGDAEAEALARSANALVRAQQGRGTGGGPGGPEGGDAEGPITALTFLYLPRPPADPAR YPRYLALLETLTRDLGPTLLVHGAMSGPTWLPPKQPEPARAPQGRAIPRGTPGPPPAHGA DRGGLRPGSLDAEIDLLSSTLAELNGGRGHASRRPDRQAYEPPPPPAYRTGSLKPNPASP LPASPYGGPTPASYTTASTPAGPAFPVQVKVAQPAEVKSGGLAIGARESQGQGPKRKLLG SLALQEEEEEASTGPSSCCVAQFLTGHGLAAEGPGITASGARVGPSPIPTFQVPLSQPPE DELDRLTKKLVHDMNHPPSGEYFGQCGGCGEDVVGDGAGVVALDRVFHVGCFVCSTCRAQ LRGQHFYAVERRAYCEGCYVATLEKCATCSQPILDRILRAMGKAYHPGCFTCVVCHRGLD GIPFTVDATSQIHCIEDFHRKFAPRCSVCGGAIMPEPGQEETVRIVALDRSFHIGCYKCE ECGLLLSSEGECQGCYPLDGHILCKACSAWRIQELSATVALKSSPSERESNGRGRTKAPS DRAMGDSDDEYDRRRRDKFRRERSDYDRSRERDERRRGDDWNDREWDRGRERRSRGEYRD YDRNRRERFSPPRHELSPPQKRMRRDWDEHSSDPYHSGYEMPYAGGGGGPTYGPPQPWGH PDVHIMQHHVLPIQARLGSIAEIDLGVPPPVMKTFKEFLLSLDDSVDETEAVKRYNDYKL DFRRQQMQDFFLAHKDEEWFRSKYHPDEVGKRRQEARGALQNRLRVFLSLMETGWFDNLL LDIDKADAIVKMLDAAVIKMEGGTENDLRILEQEEEEEQAGKPGEPSKKEEGRAGAGLGD GERKTNDKDEKKEDGKQAENDSSNDDKTKKSEGDGDKEEKKEDSEKEAKKSSKKRNRKHS GDDSFDEGSVSESESESESGQAEEEKEEAEEALKEKEKPKEEEWEKPKDAAGLECKPRPL HKTCSLFMRNIAPNISRAEIISLCKRYPGFMRVALSEPQPERRFFRRGWVTFDRSVNIKE ICWNLQNIRGARSLINRWCSRGKGLRAAVSLASGLRECELSPGVNRDLTRRVRNINGITQ HKQIVRNDIKLAAKLIHTLDDRTQLWASEPGTPPLPTSLPSQNPILKNITDYLIEEVSAE EEELLGSSGGAPPEEPPKEGNPAEINVERDEKLIKVLDKLLLYLRIVHSLDYYNTCEYPN EDEMPNRCGIIHVRGPMPPNRISHGEVLEWQKTFEEKLTPLLSVRESLSEEEAQKMGRKD PEQEVEKFVTSNTQELGKDKWLCPLSGKKFKGPEFVRKHIFNKHAEKIEEVKKEVAFFNN FLTDAKRPALPEIKPAQPPGPAQIIHVPVRVVLPPGLTPGLPYPHQTPQGLMPYGQPRPP ILGYGVPTGGPPYPHAPYGAGRGNYDAFRGQGGYPGKPRNRMVRGDPRAIVEYRDLDAPD DVDFF >gi568815591r:100703464_100927030|GENSCAN_predicted_CDS_6|6858_bp atggccagcgagagctcacctctgctggcctaccggctcctgggggaggagggggttgcc ctccctgccaatggggccgggggtcctggaggggcgtctgcccggaagctgtccaccttc ctgggtgtggtggtgcccactgtcctgtccatgttcagcatagttgtttttctgaggatt gggttcgtggtgggtcatgctgggctactgcaggccctggccatgctgctggttgcctac ttcatcctggcactcaccgtcctctctgtctgtgccatcgccaccaatggagccgtgcag gggggcggagcctactgtatcctccaacatcgatggactggggtctggcctgttctgcct gctagggaggtcatgatcagccgcacactggggcccgaggtcgggggcagcattgggctc atgttctacctggctaacgtctgtggctgtgccgtctccctcctggggctggtggagtct gtgcttgatgtcttcggggccgatgccacagggcccagtgggctccgggtcctgccccag ggctacggctggaacctgctgtatggctccctgctgctgggccttgtgggtggggtctgc accctgggagccggcctctatgcccgggcctcattcctcacattcctgctggtctctggc tccctggcctctgtgctcatcagttttgtggctgtggggccgagggacatccgcttgact cctaggcctggccccaatggctcctccctgccgccccggtttggccacttcaccggcttc aacagcagtaccctgaaggacaacttgggcgctggctatgctgaggactacaccacggga gccgtgatgaattttgccagcgtctttgctgtcctctttaacggctgtacaggcatcatg gctggggccaacatgtcaggggagctgaaggaccccagccgggcgatccctctgggcacg atcgtcgccgtcgcctacaccttcttcgtctatgtcctgcttttctttctctccagcttc acttgtgacaggaccctgctgcaggaagactatgggttcttccgcgccatcagcctgtgg cccccactggtgttgatcggaatctatgccacagcgctctcagcgtccatgagctcgctc attggtgcctcccgcatcctccatgccctggcccgggatgacctctttggcgtgatcttg gcaccggccaaggttgtgtcccgagggggaaacccctgggcagctgtactttattcttgg ggcctggtgcagctggtgctcctggctgggaagctgaacacactggctgctgtggtcact gtcttctacctggtggcctatgctgccgtggacctgtcctgcctgagcctggagtgggcc tcggcccccaacttccgccccaccttcagcctgttctcctggcacacctgcctgctgggg gtggcctcctgcctgctcatgatgttcctcatcagtcctggcgcggctggtggctccctg ctcctcatgggtctgctggctgccctgctcaccgcgcgaggaggccccagtagctggggc tatgtcagccaggccttgcttttccaccaggtgcgtaagtatctgcttcggctggacgtc cggaaggatcacgtgaagttctggcggccccagctgctgctcctggtggggaacccccgg ggcgccctgcctctgctgcggttggccaaccagcttaagaagggggggctgtatgtgctg ggccacgtcaccctgggagacctcgactccctgccctcggaccctgtacagccgcagtat ggggcatggctcagcctggtggaccgtgcccaggtgaaggcttttgtggatctaaccctc tcaccctccgtgcgccagggggctcagcatctgctgcgaatctccggcctcggtggcatg aagcccaacacgttggtcctaggtttctacgatgacgctccaccgcaggaccatttcctg acggacccggctttctctgagcctgcagacagcaccagggagggcagttccccagctctg agcaccctgttccctcctccccgggctcctgggagcccccgggccctcaatccccaggac tatgtggccacggtggccgacgccctcaagatgaacaagaatgtggtgctggcccgggcc agcggggccttgccccctgagcggctgagccgggggtctgggggcacctctcagctgcac catgtggacgtgtggcccctcaacctgctgcggccccggggtgggcccggctatgtggat gtctgcggcctcttcctgctgcagatggcaaccatcttgggcatggtgcccgcttggcat agcgcccggctccggatcttcctgtgcctggggcctcgggaggcgcctggggcggccgag gggcggctgcgggcactgctgagccaactgaggatccgggctgaggtgcaggaggtggtg tggggcgagggggccggggctggggaacccgaggcggaggaggaaggggactttgtgaac agtgggcggggagacgcagaggcagaggccctggcacgcagcgccaacgccctggttcgg gcccagcaggggcgcggcacaggaggagggccgggtgggccggagggtggggatgctgag ggccccatcacagccctcaccttcctgtacttgcctcggccgccagccgatcccgcccga tacccccgctacctggcgctactggagactctaacccgagacctgggccccacgctgctg gttcatggggccatgtcggggcccacctggctgcccccgaagcagccggagcccgccaga gcccctcaggggagggcgatcccccgcggcaccccggggccaccaccggcccacggagca gacagggggggccttcgccctggaagcctggacgccgagatagacttgctgagcagcacg ctggccgagctgaatgggggtcggggtcatgcgtcacggcgaccagaccgacaggcatat gagcccccgccacctcctgcctaccgcacgggctccctgaagccaaatccagcctcgccg ctcccagcgtctccctatgggggccccactccagcctcttacactaccgccagcaccccg gctggcccagccttccccgtgcaagtgaaggtggcacagccagccgaggtgaagtctggg ggcctggctataggagccagagagagccagggccaggggccaaagaggaagctgctgggg tctctggccctgcaggaagaggaagaggaggcgagcacgggccccagctcctgctgtgtg gcccagttcctaacaggccatggcctggcggctgagggccctggtattacagcatcagga gctagagtaggaccgagcccgattcccaccttccaggtgcccctgagccagcctccagag gatgagctggataggctgacgaagaagctggttcacgacatgaaccacccgcccagcggg gagtactttggccagtgtggtggctgcggagaagatgtggttggggatggggctggggtt gtggcccttgatcgcgtctttcacgtgggctgctttgtatgttctacatgccgggcccag cttcgcggccagcatttctacgccgtggagaggagggcatattgcgagggctgctacgtg gccaccctggagaaatgtgccacgtgctcccagcccatcctggaccggatcctgcgggct atggggaaggcctaccaccctggctgcttcacctgcgtggtgtgtcaccgcggcctcgac ggcatccccttcacagtggatgctacgagccagatccactgcattgaggactttcacagg aagtttgccccaagatgctcagtgtgcggtggggccataatgcctgagccaggtcaggag gagactgtgagaattgttgctctggatcgaagttttcacattggctgttacaagtgcgag gagtgtgggctgctgctctcctctgagggcgagtgtcagggctgctacccgctggatggg cacatcttgtgcaaggcctgcagcgcctggcgcatccaggagctctcagccaccgtcgcc ctgaaatctagcccgtccgagcgcgagtccaacggccgcggccgcaccaaggccccctca gaccgtgccatgggtgacagtgatgacgagtacgatcgaaggcgcagggacaagttcaga agagagcgcagcgactacgaccgttcccgcgagagagatgaaagacgtcgaggggacgat tggaatgacagagagtgggaccgtggccgtgagcgccgtagtcggggtgaatatcgggac tatgaccggaatcggcgagagcgcttctcgccacctcgccacgaactcagcccgccacag aagcgcatgaggagagactgggatgagcacagctctgacccataccacagtggctatgag atgccctatgctggggggggtgggggcccaacttatggcccccctcagccctggggccac cctgacgtccacatcatgcagcaccatgtcctgcctatccaggccaggctgggcagcatt gcagagattgacctgggtgtgccgccgcccgtgatgaagaccttcaaggagtttctcctc tccctggatgactcggtggatgagacggaggccgtcaagcgctataatgactacaagctg gatttccggaggcaacagatgcaggatttcttcctggcgcacaaagatgaggagtggttt cggtctaagtaccacccagatgaggtggggaagcgtcggcaggaggcccggggggccctg caaaaccgactgagggtcttcctgtccctcatggagactggctggtttgataaccttctc ctggacatagacaaagctgatgccattgtcaagatgctggatgcagccgtgattaagatg gaaggaggcacggagaatgatcttcgcatcctggagcaggaggaggaggaggagcaggca ggaaagcctggggagcccagcaagaaagaagaaggacgggctggagcaggcctaggggac ggggagcgcaaaaccaacgacaaggatgagaagaaggaagacggcaagcaggctgagaat gacagttctaatgatgacaaaacaaagaagtcggagggtgatggggacaaggaagagaag aaagaagactccgagaaggaagccaaaaagagtagcaagaagcggaaccggaagcacagt ggtgacgacagctttgacgagggcagcgtgtcagagtctgagtcggagtcagagagcggc caggctgaggaggagaaggaggaggccgaagaagcgctcaaggagaaggagaagcccaag gaagaagaatgggagaagcccaaggacgccgcggggctggagtgcaagccgcggccgctg cataagacctgctccctcttcatgcgcaacatcgcgcccaacatctcccgggccgagatc atctccctttgtaaaaggtacccaggctttatgcgggtggcgctctcagagccccagcca gagaggaggtttttccgtcgtggctgggtgaccttcgaccgcagtgttaacattaaagag atctgttggaacctgcagaacatccgtggagctcgcagtctgatcaatcgctggtgctca agagggaagggtcttagagctgctgtttctctggcaagcgggctccgggagtgtgagctg agccctggtgtgaacagggacctgacccggcgcgttcgcaacatcaacggcatcacccag cacaagcagattgtgcgcaacgacatcaagctggcggccaagctgatccacacgctggat gacaggacacagctttgggcctcagaaccagggacgcctcccctgcccacgagcctgccc tcgcaaaacccgatcttgaagaatatcaccgactacctgatcgaggaagtaagcgccgag gaggaggagctgctggggagcagcgggggcgctcctcctgaggagcctcctaaggaaggg aacccggcagagatcaacgtggagcgggatgagaagttgattaaggtcttggacaagctc ctcctttacctgcgcatcgtgcattccttggattattacaacacctgtgagtaccccaac gaggacgagatgcccaatcgctgtgggatcatccacgttcgggggcccatgccacccaac cgcatcagtcacggggaagtgctggagtggcagaagacttttgaggagaagctcacgccg ttgctgagtgtgcgggagtcactctcagaggaagaggcccagaagatggggcgcaaagac ccagagcaggaagtggagaagttcgtcacctccaacacgcaggaactgggcaaggataag tggctgtgtcctctcagtggcaagaaattcaagggtcctgagtttgtgcgcaaacatatc ttcaacaagcatgcagagaaaattgaggaagtgaaaaaggaagtcgcgttttttaacaac ttcctcactgatgctaagcgcccagctctgcctgagatcaagccagcccagccacctggc cccgcccagataattcatgtccctgtccgtgttgtactccccccaggtttgaccccagga ctcccctacccacaccagactccccagggcctgatgccctatggtcagccccggcccccg atcttgggctatggagtccccacaggaggccctccatacccccatgccccgtatggtgct ggtcgagggaactatgatgccttccgaggccagggaggttatcctgggaaacctcgcaac aggatggttcgtggagacccaagggccattgtggaatatcgggacctggatgccccagac gatgttgatttcttttga >gi568815591r:100703464_100927030|GENSCAN_predicted_peptide_7|828_aa MRPPQCLLHTPSLASPLLLLLLWLLGGGVGAEGREDAELLVTVRGGRLRGIRLKTPGGPV SAFLGIPFAEPPMGPRRFLPPEPKQPWSGVVDATTFQSVCYQYVDTLYPGFEGTEMWNPN RELSEDCLYLNVWTPYPRPTSPTPVLVWIYGGGFYSGASSLDVYDGRFLVQAERTVLVSM NYRVGAFGFLALPGSREAPGNVGLLDQRLALQWVQENVAAFGGDPTSVTLFGESAGAASV GMHLLSPPSRGLFHRAVLQSGAPNGPWATVGMGEARRRATQLAHLVGCPPGGTGGNDTEL VACLRTRPAQVLVNHEWHVLPQESVFRFSFVPVVDGDFLSDTPEALINAGDFHGLQVLVG VVKDEGSYFLVYGAPGFSKDNESLISRAEFLAGVRVGVPQVSDLAAEAVVLHYTDWLHPE DPARLREALSDVVGDHNVVCPVAQLAGRLAAQGARVYAYVFEHRASTLSWPLWMGVPHGY EIEFIFGIPLDPSRNYTAEEKIFAQRLMRYWANFARTGDPNEPRDPKAPQWPPYTAGAQQ YVSLDLRPLEVRRGLRAQACAFWNRFLPKLLSATDTLDEAERQWKAEFHRWSSYMEDAVP GLGPPLPPTALEPLRDVHVGLSPPSRGPVRLALLSGHYLYYHYGCDGLDDRGWGCGYRTL QTLCSWPEGQPAGVPGLAAVQAALEDMGDKPPGFRGSRDWIGCVEASLCLAHFGGPQGRL CHVPRGVGLHGELERLYSHFAGGGGPVMVGGDADARSKALLGVCVGSGTEAYVLVLDPHY WGTPKSPSELQAAGWVGWQEVSAAFDPNSFYNLCLTSLSSQQQQRTLD >gi568815591r:100703464_100927030|GENSCAN_predicted_CDS_7|2487_bp atgaggcccccgcagtgtctgctgcacacgccttccctggcttccccactccttctcctc ctcctctggctcctgggtggaggagtgggggctgagggccgggaggatgcagagctgctg gtgacggtgcgtgggggccggctgcggggcattcgcctgaagacccccgggggccctgtc tctgctttcctgggcatcccctttgcggagccacccatgggaccccgtcgctttctgcca ccggagcccaagcagccttggtcaggggtggtagacgctacaaccttccagagtgtctgc taccaatatgtggacaccctatacccaggttttgagggcaccgagatgtggaaccccaac cgtgagctgagcgaggactgcctgtacctcaacgtgtggacaccatacccccggcctaca tcccccacccctgtcctcgtctggatctatgggggtggcttctacagtggggcctcctcc ttggacgtgtacgatggccgcttcttggtacaggccgagaggactgtgctggtgtccatg aactaccgggtgggagcctttggcttcctggccctgccggggagccgagaggccccgggc aatgtgggtctcctggatcagaggctggccctgcagtgggtgcaggagaacgtggcagcc ttcgggggtgacccgacatcagtgacgctgtttggggagagcgcgggagccgcctcggtg ggcatgcacctgctgtccccgcccagccggggcctgttccacagggccgtgctgcagagc ggtgcccccaatggaccctgggccacggtgggcatgggagaggcccgtcgcagggccacg cagctggcccaccttgtgggctgtcctccaggcggcactggtgggaatgacacagagctg gtagcctgccttcggacacgaccagcgcaggtcctggtgaaccacgaatggcacgtgctg cctcaagaaagcgtcttccggttctccttcgtgcctgtggtagatggagacttcctcagt gacaccccagaggccctcatcaacgcgggagacttccacggcctgcaggtgctggtgggt gtggtgaaggatgagggctcgtattttctggtttacggggccccaggcttcagcaaagac aacgagtctctcatcagccgggccgagttcctggccggggtgcgggtcggggttccccag gtaagtgacctggcagccgaggctgtggtcctgcattacacagactggctgcatcccgag gacccggcacgcctgagggaggccctgagcgatgtggtgggcgaccacaatgtcgtgtgc cccgtggcccagctggctgggcgactggctgcccagggtgcccgggtctacgcctacgtc tttgaacaccgtgcttccacgctctcctggcccctgtggatgggggtgccccacggctac gagatcgagttcatctttgggatccccctggacccctctcgaaactacacggcagaggag aaaatcttcgcccagcgactgatgcgatactgggccaactttgcccgcacaggggatccc aatgagccccgagaccccaaggccccacaatggcccccgtacacggcgggggctcagcag tacgttagtctggacctgcggccgctggaggtgcggcgggggctgcgcgcccaggcctgc gccttctggaaccgcttcctccccaaattgctcagcgccaccgacacgctcgacgaggcg gagcgccagtggaaggccgagttccaccgctggagctcctacatggaggacgctgtgcct ggcctgggacctccgctcccgcccaccgccctggagccgctgagggacgtccacgtgggc ctgtccccgccgagccgcggccctgtccgcctggcgctgctctcgggccactacctctac taccactacggctgcgacggcctggacgaccgcggctggggctgcggctaccgcactctg cagacgctgtgctcgtggccagagggccagcccgcgggcgtacctggactggccgccgta caggcggccctggaggacatgggcgacaagccccccggcttccggggctcccgggactgg atcggctgcgtggaggccagcctctgcctcgctcacttcggagggccccagggacgcctc tgccacgtaccccggggagtggggctgcacggggagctggagaggctttactcgcacttc gcagggggtgggggcccagtcatggttgggggggacgcagatgccaggtccaaggccttg ctgggagtctgcgtagggtcaggcacggaagcctatgtcctggtattggaccctcactac tggggcactccaaaaagccccagtgaactacaggctgctgggtgggtgggctggcaagag gtgagtgcagcctttgaccccaactccttctacaacctgtgcttgaccagccttagctcc caacagcagcagcgcaccttggactga >gi568815591r:100703464_100927030|GENSCAN_predicted_peptide_8|23_aa MGKRQLVVWGKRICEDSCCSSPG >gi568815591r:100703464_100927030|GENSCAN_predicted_CDS_8|72_bp atgggaaaacgacagctggtggtgtggggtaaaagaatttgtgaagacagttgctgctcc tcgccaggctga